1 research outputs found
Output Voltage Response Improvement and Ripple Reduction Control for Input-parallel Output-parallel High-Power DC Supply
A three-phase isolated AC-DC-DC power supply is widely used in the industrial
field due to its attractive features such as high-power density, modularity for
easy expansion and electrical isolation. In high-power application scenarios,
it can be realized by multiple AC-DC-DC modules with Input-Parallel
Output-Parallel (IPOP) mode. However, it has the problems of slow output
voltage response and large ripple in some special applications, such as
electrophoresis and electroplating. This paper investigates an improved
Adaptive Linear Active Disturbance Rejection Control (A-LADRC) with flexible
adjustment capability of the bandwidth parameter value for the high-power DC
supply to improve the output voltage response speed. To reduce the DC supply
ripple, a control strategy is designed for a single module to adaptively adjust
the duty cycle compensation according to the output feedback value. When
multiple modules are connected in parallel, a Hierarchical Delay Current
Sharing Control (HDCSC) strategy for centralized controllers is proposed to
make the peaks and valleys of different modules offset each other. Finally, the
proposed method is verified by designing a 42V/12000A high-power DC supply, and
the results demonstrate that the proposed method is effective in improving the
system output voltage response speed and reducing the voltage ripple, which has
significant practical engineering application value.Comment: Accepted by IEEE Transactions on Power Electronic